WO2008017263A1 - Procédé de commande de traçage de service et système de traçage de service et le dispositif de traçage associé - Google Patents

Procédé de commande de traçage de service et système de traçage de service et le dispositif de traçage associé Download PDF

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Publication number
WO2008017263A1
WO2008017263A1 PCT/CN2007/070341 CN2007070341W WO2008017263A1 WO 2008017263 A1 WO2008017263 A1 WO 2008017263A1 CN 2007070341 W CN2007070341 W CN 2007070341W WO 2008017263 A1 WO2008017263 A1 WO 2008017263A1
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WO
WIPO (PCT)
Prior art keywords
tracking
service
component
dependent component
function
Prior art date
Application number
PCT/CN2007/070341
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English (en)
Chinese (zh)
Inventor
Wenhua Xu
Yan Li
Jie Tang
Xiaomin Shi
Original Assignee
Huawei Technologies Co., Ltd.
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Huawei Technologies Co., Ltd. filed Critical Huawei Technologies Co., Ltd.
Priority to EP07764268A priority Critical patent/EP2048821B1/fr
Priority to ES07764268T priority patent/ES2383153T3/es
Priority to AT07764268T priority patent/ATE549817T1/de
Publication of WO2008017263A1 publication Critical patent/WO2008017263A1/fr
Priority to US12/342,880 priority patent/US20090104897A1/en

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Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L41/00Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L41/00Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks
    • H04L41/50Network service management, e.g. ensuring proper service fulfilment according to agreements
    • H04L41/5003Managing SLA; Interaction between SLA and QoS
    • H04L41/5019Ensuring fulfilment of SLA

Definitions

  • the present invention relates to the field of communications technologies, and in particular, to a service tracking control method, a service tracking system, and a related tracking device. Background technique
  • OMA Open Mobile Alliance
  • OSPE OMA Service Provider Environment
  • Different services for unified business management including business deployment, revocation, tracking, and detection.
  • the ability to track and locate faults in the business is an important part of the tracking function.
  • Figure 1 the system architecture related to service tracking in OSPE is shown in Figure 1. It consists of three parts:
  • the OSPE server is a server that manages the tracking activity, and receives the service tracking control request of the OSPE requester, including opening the service tracking request, closing the service tracking request, etc., controlling the tracking and closing tracking of the tracking agent, and receiving the tracking log transmitted by the tracking agent;
  • SMAC Service Model And Catalogue
  • the OSPE server can obtain relevant business information from SMAC through query commands.
  • the tracking agent is a module that is deployed on the tracked component to process the service tracking.
  • the module is controlled by the OSPE server and can receive the service tracking control command, including at least opening the service tracking and closing the service tracking command.
  • the OSPE requester sends an open service tracking request to the OSPE server; the request includes the requested service and the function control request related to the service, and the related function control requirement is to "turn on the tracking function" for opening the service tracking request. ";
  • the OSPE server queries the SMAC for service dependencies, and obtains the tracking associated with the service.
  • Business and the components required to track the business, these components can be referred to as dependent components of the business;
  • SMAC returns the dependency components required to track the service to the OSPE server
  • the OSPE server sends an open service tracking command to the tracking agent of each dependent component, where the command corresponds to the service tracking control request of the OSPE requester, including the service to be tracked, and the function control requirements related to the service;
  • the tracking agent of each dependent component returns confirmation information to the OSPE server;
  • the OSPE server returns the execution result to the OSPE requester.
  • the process of closing the service tracking is similar to this. After the OSPE service obtains the service tracking request, the OSPE service obtains the dependent component information of the service, and then issues the shutdown service tracking command to close the tracking agent of each component.
  • a drawback of the above-described business tracking method opening and closing process is that there may be conflicts over component control.
  • tracking for Service A requires the following components: Component 1, Component 3, Component 4;
  • Tracking for Service B requires the following components: Component 2, Component 3, Component 5.
  • the components 1, 3, and 4 have all turned on the tracking function.
  • the components 2, 3, and 5 need to be opened.
  • the invention provides a service tracking control method, a service tracking system and a related tracking device, which can effectively avoid the conflict of opening and closing of the tracking function of the component.
  • the embodiment of the invention provides a service tracking control method, including:
  • Performing a dependency query of the requested service obtaining dependent component information of the requested service; performing conflict detection on the dependent component;
  • the service tracking control command is delivered to the dependent component.
  • Receiving a service tracking control request Performing a dependency query of the requested service, obtaining dependent component information of the requested service; and issuing a service tracking control command to the corresponding dependent component;
  • the execution of the service tracking control command is processed for the dependent component difference.
  • Embodiments of the present invention provide a tracking system, including a tracking control server, a service database, and a tracking conflict management module;
  • a service tracking control request Receiving, by the tracking control server, a service tracking control request, sending a dependency query request of the requested service to the service database, obtaining dependency component information of the requested service, and sending a conflict detection request to the tracking conflict management module, where the conflict
  • the detection request includes the function control request in the dependency component information and the service tracking control request; and the processing of the service tracking control command is processed according to the conflict detection result of each dependent component fed back by the tracking conflict management module;
  • the tracking control server provides the dependent component information of the service; the tracking conflict management module detects whether the function control request in the service tracking control request conflicts with the current tracking state of the dependent component of the service, and feeds the detection result back to the The tracking control server.
  • Another tracking system includes a tracking control server, a service database, and a tracking conflict management module;
  • the service database After receiving the query request of the tracking control server, the service database queries the dependent component information of the requested service; sends a conflict detection request to the tracking conflict management module, where the conflict detection request includes the dependent component information and service Tracking control request requirements in control requests;
  • the tracking conflict management module detects whether the function control request in the service tracking control request conflicts with the current tracking state of the dependent component of the service, and feeds the detection result to the tracking control server.
  • a further tracking system provided by the embodiment of the invention includes a tracking control server, a service database and a tracking conflict management module; Receiving, by the tracking control server, a service tracking control request; sending a dependency query request of the requested service to the service database; and processing the delivery of the service tracking control command according to the conflict detection result of each dependent component fed back by the service database;
  • the service database After receiving the query request of the tracking control server, the service database queries the dependent component information of the requested service; sends a conflict detection request to the tracking conflict management module, where the conflict detection request includes the dependent component information and service Tracking the function control request in the control request; feeding back the detection result of the tracking conflict management module to the tracking control server; the tracking conflict management module detecting the function control request in the service tracking control request and the service Depending on whether the current tracking status of the component conflicts, the detection result is fed back to the service database.
  • the embodiment of the invention further provides a service database, including a service data management module and a tracking conflict management module;
  • the service data management module is configured to store service data and its dependent component information; and receive a dependency query request of the service, where the query request includes the requested service and related function control requirements;
  • the tracking conflict management module detects whether the function control request conflicts with a current tracking state of the dependent component of the service, and feeds the detection result to the service data management module.
  • a tracking control server provided by an embodiment of the present invention includes a tracking control module and a tracking conflict management module;
  • the tracking control module is configured to receive a service tracking control request, and query and obtain dependency component information of the requested service, and send the dependency control component information of the service and the function control request in the service tracking control request to the tracking conflict a management module: processing the delivery of the service tracking control command according to the conflict detection result of each dependent component fed back by the tracking conflict management module;
  • the tracking conflict management module is configured to detect whether a function control request in the service tracking control request conflicts with a current tracking state of a dependent component of the service, and feedback the detection result Give the tracking control module.
  • the tracking agent provided in the component provided by the embodiment of the invention includes a tracking processing module and a tracking conflict management module;
  • the tracking processing module is configured to receive a service tracking control command, send a function control request in the service tracking control command to the tracking conflict management module, and perform a difference detection process according to the detection result fed back by the tracking conflict management module. Executing the execution of the service tracking control command; the tracking conflict management module detects whether the function control request in the service tracking control request conflicts with the current tracking state of the component, and feeds the detection result to the tracking processing module.
  • FIG. 1 is a schematic diagram of an existing OSPE system architecture
  • FIG. 2 is a schematic diagram of component control conflicts of an existing tracking method
  • FIG. 3 is a schematic flowchart of a method for opening a service tracking method according to Embodiment 1 of the present invention
  • FIG. 4 is a schematic flowchart of a method for tracking a closed service according to Embodiment 2 of the present invention.
  • FIG. 5 is a schematic flowchart of a method for opening a service tracking method according to Embodiment 3 of the present invention.
  • FIG. 6 is a schematic flowchart of a method for tracking a closed service according to Embodiment 4 of the present invention.
  • FIG. 7 is a schematic structural diagram of an OSPE system module in Embodiment 5 of the present invention.
  • FIG. 8 is a schematic diagram of a signaling flow of a method in the first embodiment of the OSPE system in Embodiment 5 of the present invention.
  • Embodiment 6 of the present invention is a schematic structural diagram of an OSPE system module in Embodiment 6 of the present invention.
  • FIG. 10 is a schematic diagram of a signaling flow of a method performed by an OSPE system in Embodiment 2 of the sixth embodiment of the present invention.
  • FIG. 11 is a schematic structural diagram of an OSPE system module in Embodiment 7 of the present invention.
  • FIG. 12 is a schematic diagram of a signaling flow of a method in the first embodiment of the OSPE system in Embodiment 7 of the present invention.
  • FIG. 13 is a schematic structural diagram of an SMAC module according to Embodiment 8 of the present invention
  • 14 is a schematic diagram of an OSPE system architecture of the SMAC in the eighth embodiment
  • FIG. 15 is a schematic diagram of a signaling flow of the method in the second embodiment of the OSPE system in the eighth embodiment of the present invention
  • FIG. 16 is a schematic structural diagram of an OSPE server module in Embodiment 9 of the present invention.
  • FIG. 17 is a schematic diagram of an OSPE system architecture of an OSPE server in Embodiment 9;
  • FIG. 18 is a schematic diagram of a signaling flow of a method in Embodiment 2 of an OSPE system according to Embodiment 9 of the present invention;
  • FIG. 19 is a schematic structural diagram of a tracking proxy module according to an embodiment of the present invention.
  • FIG. 20 is a schematic diagram of an OSPE system architecture of the tenth tracking agent used in Embodiment 10;
  • Figure 21 is a schematic diagram showing the signaling flow of the method in the first embodiment of the OSPE system in the tenth embodiment of the present invention. detailed description
  • the present invention provides a service tracking control method, before performing a tracking control command on a component, performing conflict detection to distinguish components having different tracking states, thereby avoiding control conflicts on components, for example, The "open conflict", “close conflict,”, etc.
  • the service tracking control method provided by the present invention can be applied to the process of opening the business tracking and the process of closing the business tracking, and the conflict detection can be in the command generation phase or the command execution phase in the control flow.
  • the basic control ideas of the two processes are consistent, including: receiving control requests, querying service information, performing conflict detection, and distinguishing components of different states. The difference lies in the specific control commands and the corresponding control operations. Detailed description.
  • Embodiment 1 A method for opening a service tracking, which is shown in FIG. 3, and includes:
  • Al receiving an open service tracking request;
  • the request is usually initiated by an OSPE requester, the request specifies a service that needs to be turned on, and a function control requirement related to the service is "open tracking function";
  • A3. Perform conflict detection on the dependent component according to the dependent component information and related function control requirements, and determine whether the function of controlling the "open tracking function" and the current tracking state of each component are rushed. According to the result of the detection and judgment, the dependent component can be naturally divided into two parts: the conflicting part of the tracking function is opened and the non-conflicting part of the tracking function is not turned on;
  • the open trace function command is not issued to the component detected as having the trace function turned on;
  • A51 Perform an open tracking function command on the corresponding component, and open the tracking function of the component;
  • A53 Update the current tracking status with the request to open the tracking function event.
  • Embodiment 2 A method for shutting down service tracking, as shown in FIG. 4, includes:
  • the request is usually initiated by the OSPE requester, or may be automatically generated by the OSPE server or initiated by other related modules, the request specifies the service that needs to be turned off, and the function control request related to the service is "closed" Tracking function";
  • B3. Perform conflict detection on the dependent component according to the dependent component information and related function control requirements, and determine whether the control request of the "close tracking function" conflicts with the current tracking state of each component; the result of the detection judgment can naturally be dependent
  • the component is divided into two parts: the conflicting part used by the tracking function by multiple tracking requests and the non-conflicting part of the tracking function used by one tracking request;
  • the off-tracking function command is not issued to the component detected as the tracking function being used by multiple tracking;
  • B51 Perform the close tracking function command on the corresponding component, and turn off the tracking function of the component; B52. Update the current tracking state of each dependent component according to the result of the command execution, that is, the execution of the component closing tracking function.
  • the request to turn off the tracking function event update depends on the current tracking state of the component.
  • the collision detection is mainly to judge whether the requested function control operation of the component is duplicated or contradictory with the tracking state currently in which it is located.
  • Various implementation forms can be used to provide the basis for judgment. In this paper, they are collectively referred to as the tracking status table.
  • the tracking status table is used to perform collision detection. After the control command is executed, the tracking status table is updated according to the execution result, and the tracking status is tracked.
  • the data structure of the table includes but is not limited to the following forms:
  • the tracking function conflict detection when the tracking function conflict detection is performed, if a component already exists in the component column, it indicates that the component tracking function has been turned on; when the tracking function conflict detection is performed, if the component is referenced If the number of times column is equal to or greater than two, it indicates that the component tracking function is opened multiple times.
  • the tracking function update when the tracking function update is performed, if the component already exists in the component column of the tracking status table, the corresponding reference number of the component is incremented by one, otherwise the first is added in the tracking status table.
  • Component record and set the corresponding number of component references to one default is zero for the number of component references not recorded in the tracking status table); when performing the shutdown tracking function update, reduce the corresponding number of references of the component by one, if If the number of references to a component becomes zero, the component record is deleted.
  • the conflict detection process in the above two embodiments is performed before the control command is sent, so that whether the command is delivered is different in itself; the conflict detection process can also be performed after the command is sent but before the execution, for the same control command, Components in different tracking states can be handled differently.
  • Embodiment 3 A method for opening a service tracking, where the process is as shown in FIG. 5, including:
  • C3 issuing an open tracking function command to each dependent component, the command includes a service to be tracked, and a function control requirement related to the service, "open tracking function";
  • Embodiment 4 A method for shutting down service tracking, as shown in FIG. 6, the process includes: D1, receiving a closed service tracking request, specifying a service that needs to be closed in the request, and a function control request related to the service. Features"; D2. Querying the dependency of the service according to the service specified in the request, that is, obtaining information about the dependent component of the service;
  • D3 issuing a shutdown tracking function command to each dependent component, the command includes a service to be tracked, and a function control requirement related to the service;
  • D4. Perform conflict detection on the component side according to the shutdown tracking function command, and determine whether the control request of the "close tracking function" conflicts with the current tracking state of the component; if the current component tracking function is used by multiple tracking requests, it is determined to be a conflict. If the current component tracking function is only used by one tracking request, it is judged as non-conflict;
  • D5. Perform differential processing according to conflict detection results, including,
  • the conflict detection operation in the service tracking control method in the embodiment of the present invention may be implemented by adding a Tracking Conflict Management Module (TCM: Tracing Collision Management) in the OSPE system, and the TCM may be independent of the OSPE server, the SMAC, the tracking agent, and the like.
  • TCM Tracking Conflict Management Module
  • the module, which exists in the OSPE system alone, can also be added to the above tracking device as a sub-module. Based on the introduction of the TCM module, a variety of new devices and system architectures can be obtained, which are described in detail below.
  • Embodiment 5 An OSPE system, as shown in FIG. 7, includes: an OSPE server 1, a tracking agent 2 (several, set in each tracked component), SMAC 3, and TCM 4;
  • the OSPE server 1 receives the service tracking control request, including opening the service tracking request, and closing a service tracking request, etc., the service tracking control request includes the requested service and a function control request related to the service; performing a dependent component query of the requested service to the SMAC 3 according to the requested service; and transmitting a conflict detection request to the TCM 4,
  • the conflict detection request includes the dependency component information provided by the SMAC 3 and the related tracking control request.
  • the non-conflicting part of the conflict detection result of each component fed back by the TCM 4 delivers a corresponding service tracking control command to the tracking agent of each dependent component.
  • the issued service tracking control command includes an open/close command of the component tracking function; and the execution result of the service tracking control command is fed back to the TCM 4;
  • the SMAC 3 stores the service data, the component data, and the dependencies between them, and provides the dependent component information query of the service for the OSPE server 1; the SMAC 3 can feed the query result to the OSPE server 1 in the form of a list of dependent components;
  • the TCM 4 receives the conflict detection request sent by the OSPE server 1, and the conflict detection request includes the dependency control component and the function control request in the service tracking control request, and determines whether the tracking control request related to the service conflicts with the current tracking state of each dependent component.
  • the detection result of the dependent component including the non-conflicting part is fed back to the OSPE server 1; the TCM 4 divides the list of dependent components sent by the OSPE server 1 into two new tables: a conflicting component list and a non-conflicting component list after conflict detection:
  • the tracking control request can be a list of components that have the tracking function turned on and a component list that has not been turned on. For the closed type, the tracking control request can be divided into a tracking function.
  • the component list used by multiple tracking and the tracking function are used by one tracking.
  • the list of components; TCM 4 can use the list to feed back the detection results including the non-conflicting part to OSPE server 1; TCM 4 also updates the current tracking status of the component, and for the conflicting component, it can directly control the request according to the service tracking.
  • Function control Requires updating, execution result for the non-conflicting portions subassembly, the server can control command according OSPE feedback tracking operations of the corresponding components of the current tracking state is updated;
  • the tracking agent 2 performs service tracking control on the component according to the service tracking control command sent by the OSPE server 1; and feedbacks the execution of the service tracking control command.
  • the OSPE system may apply the service tracking control method provided in Embodiment 1 or 2 of the present invention, and save the tracking state table in the TCM 4.
  • the following is an example of opening the service tracking method, and the traffic tracking method is closed in the foregoing system.
  • the application in it can be analogized.
  • the signaling process for performing the open service tracking in the above OSPE system is as shown in FIG. 8, and includes: The OSPE server receives an open service tracking request of the OSPE requester, where the request specifies that the service to be tracked needs to be opened;
  • the OSPE server queries the SMAC for the dependencies of the service according to the service specified in the request.
  • the SMAC queries the dependencies according to the specified service, obtains the related services required to track the service associated with the service, and tracks the related components, and returns the component list to the OSPE server.
  • the OSPE server sends a conflict detection request to the TCM, where the request includes a list of components involved in the service tracking request and related control requests.
  • the TCM queries the tracking status table according to the component list and related control requests, and divides the components into two groups: a conflicting component list in which the tracking function has been turned on, and a non-conflicting component list in which the tracking function is not turned on;
  • TCM performs status update processing on the components in the component list of the trace function that has been turned on, and records the request to open the service tracking event;
  • the TCM returns a conflict detection result to the OSPE server, including a list of non-conflicting components that do not have the tracking function turned on;
  • the OSPE server issues an open tracking function command to the tracking agent of each component in the component list that does not have the tracking function turned on;
  • the tracking agent executes the tracking command, and the tracking function of the component is turned on;
  • the tracking agent returns the tracking command execution result of the component to the OSPE server; al0. If the result of the successful execution of the tracking command is returned, the OSPE server feeds back the result to the TCM, and the TCM updates the execution status of the component in the tracking status table. .
  • steps a6' and steps a6 ⁇ al0 are respectively the execution flow of the conflicting component and the non-conflicting component, and therefore can be performed in parallel.
  • Embodiment 6 An OSPE system, as shown in FIG. 9, includes: an OSPE server 5, a tracking agent 6, a SMAC 7, and a TCM 8;
  • the OSPE server 5 receives the service tracking control request, where the service tracking control request includes the requested service and the function control request related to the service; and the dependent component query of the requested service is performed to the SMAC 7 according to the requested service, according to the SMAC 7 feedback.
  • Non-conflicting dependent component The information is sent to the tracking agent 6 of each dependent component; the execution result of the service tracking control command is fed back to the SMAC 7;
  • the SMAC 7 After receiving the query request of the OSPE server 5, the SMAC 7 queries the corresponding dependent component information, and sends a conflict detection request to the TCM 8, and the conflict detection request includes the required dependent component information and related function control requirements;
  • the non-conflicting class dependent component information is fed back to the OSPE server 5;
  • the execution result of the service tracking control command fed back by the OSPE server 5 is forwarded to the TCM 8;
  • the TCM 8 receives the conflict detection request sent by the SMAC 7, determines whether the control request of the tracking function conflicts with the current tracking state of each dependent component, and divides the conflict detection result of each component into a conflict type and a non-conflict type;
  • the detection result of the component information is fed back to SMAC 7;
  • the current tracking state of the component is updated, and for the conflicting component, the component can be directly updated according to the relevant function control requirement, and for the non-conflicting component component, the service tracking control command can be fed back according to SMAC 7.
  • the execution result updates the current tracking state of the corresponding component;
  • the tracking agent 6 performs service tracking control on the component according to the service tracking control command sent by the OSPE server 5, and feedbacks the execution of the service tracking control command.
  • the TCM solution of the independent tracking management module is used.
  • the TCM only interacts with the OSPE server.
  • the TCM only works with
  • the OSPE system of the present embodiment can also apply the service tracking control method provided by the first or second embodiment of the present invention.
  • the following is a detailed description of the method for shutting down the service tracking, and the application of the service tracking method can be analogized.
  • the signaling flow for performing the shutdown service tracking in the above OSPE system is as shown in FIG. 10, including:
  • the OSPE server receives the shutdown service tracking request of the OSPE requester, and specifies the service that needs to be closed for tracking;
  • the OSPE server queries the SMAC for the dependencies of the service according to the service specified in the request.
  • the SMAC queries its dependencies according to the specified service, and obtains tracking related to the service. Business and related dependencies needed to track the business;
  • the SMAC sends a conflict detection request to the TCM, where the request includes a list of components involved in the service tracking request and related function control requirements;
  • the TCM queries the tracking status table according to the component list and related control requests, and divides the components into two groups: the tracking function is used by a tracking non-conflicting component list, and the tracking function is used by multiple tracking conflict component lists;
  • the TCM performs a status update process on the components in the component list of the tracking function that is used by the multiple tracking, and records the request to close the service tracking event;
  • the TCM returns a conflict detection result to the SMAC, where the tracking function is used by a tracking non-conflicting component list, and the SMAC passes the result to the OSPE server.
  • the OSPE server issues a shutdown tracking function command to the tracking agent of each component according to the tracking function by a list of components used by the tracking;
  • the tracking agent executes the tracking command, and the tracking function of the component is closed;
  • the tracking agent returns the tracking command execution result of the component to the OSPE server; bl0. If the result of the successful execution of the tracking command is returned, the OSPE server feeds back the result to the OSPE server.
  • TCM updates the execution of this trace command by this component in the trace status table.
  • steps b6' and b6 ⁇ bl0 are respectively the execution flow of the conflicting component and the non-conflicting component, and therefore can be performed in parallel.
  • Embodiment 7 An OSPE system, as shown in FIG. 11, includes: an OSPE server 9, a tracking agent 10, an SMAC 11, and a TCM 12;
  • the OSPE server 9 receives the service tracking control request; performs the dependency component query of the requested service to the SMAC 11; delivers the corresponding service tracking control command to the tracking component 10 of the dependent component according to the conflict detection result of each component fed back by the TCM 12; The execution result of the tracking control command is fed back to the TCM 12;
  • the SMAC 11 After receiving the query request of the OSPE server 9, the SMAC 11 queries the corresponding dependent component information, and sends a conflict detection request to the TCM 12, where the conflict detection request includes the required dependency component information and related control requests;
  • the TCM 12 receives the conflict detection request sent by the SMAC 11, determines whether the control request of the tracking function conflicts with the current tracking state of each dependent component, and divides the conflict detection result of each component into two.
  • Conflicting class and non-conflicting class feeding back the detection result including the non-conflicting class dependent component information to the OSPE server 9; updating the current tracking state of the corresponding component according to the execution result of the service tracking control command; updating the current tracking state of the component
  • the conflicting component it can be updated according to the relevant function control requirements.
  • the current tracking state of the corresponding component can be updated according to the execution result of the service tracking control command fed back by the OSPE server 9;
  • the tracking agent 10 performs service tracking control on the component according to the service tracking control command sent by the OSPE server 9, and feedbacks the execution of the service tracking control command.
  • this embodiment also adopts the scheme of the independent tracking management module TCM.
  • the TCM interacts with the OSPE server and the SMAC, and the TCM receives the SMAC dependent component list generation conflict.
  • the result is detected, and the detection result including the non-conflicting class dependent component information is directly transmitted to the OSPE server. Feedback to the tracking agent is fed back directly to the TCM by the OSPE server.
  • the signaling process of the service tracking method in the first embodiment of the application of the OSPE system is as shown in FIG. 12, and includes:
  • the OSPE server receives the open service tracking request of the OSPE requester
  • the OSPE server queries the SMAC for the dependencies of the service according to the service specified in the request.
  • the SMAC queries its dependencies according to the specified service, and obtains related services related to tracking the services associated with the service and tracking the services;
  • the SMAC sends a conflict detection request to the TCM.
  • the TCM queries the tracking status table according to the component list and related control requests, and divides the components into two groups: a conflicting component list in which the tracking function has been turned on, and a non-conflicting component list in which the tracking function is not turned on;
  • C6 TCM updates the status of the components in the component list of the trace function that has been turned on, and records the request to open the business trace event.
  • the TCM returns a conflict detection result to the OSPE server, including a list of non-conflicting components that do not have the tracking function turned on;
  • the OSPE server gives each group in the list according to the list of components that do not have the tracking function turned on.
  • the tracking agent of the piece issues an open tracking function command;
  • the tracking agent performs a trace function to open the tracking function of the component
  • the tracking agent returns the tracking command execution result of the component to the OSPE server; cl0. If the result of the successful execution of the tracking command is returned, the OSPE server feeds back the result to the TCM, and the TCM updates the tracking status table to execute the tracking command. .
  • steps c6' and steps c6 ⁇ cl0 are respectively the execution flow of the conflicting component and the non-conflicting component, and therefore can be performed in parallel.
  • Embodiments 5-7 provide a system architecture scheme for centralized and independent processing of tracking conflict detection.
  • the collision detection function is logically independent of other modules, which facilitates standardization of conflict detection function modules and unification of component status data. management.
  • Embodiment 8 A SMAC, as shown in FIG. 13, includes: a service data management module mil, a TCM module ml2;
  • the service data management module mil performs the operations normally performed by the SMAC: storing the service data and its dependent component information, and receiving the service dependent component query request, where the query request includes the requested service and the function control requirements related to the service;
  • the dependent component information and related function control requirements are sent to the newly added TCM module ml2 of the present invention; according to the conflict detection result of each component fed back by the TCM module ml2, the conflict detection result including the non-conflicting dependent component information is used as the query request.
  • the TCM module ml2 is responsible for performing the conflict detection operation: detecting whether the control request of the tracking function conflicts with the current tracking state of each dependent component, and feeding back the detection result including the non-conflicting dependent component information to the service data management module mil; receiving the control command fed back by the component Execution result; update the current tracking status of the component.
  • the conflicting component it can be updated according to the relevant function control requirements.
  • the current tracking status of the corresponding component can be updated according to the feedback control command execution result. ;
  • the OSPE system architecture using the above SMAC is as shown in FIG. 14.
  • the SMAC ml receives the query request of the OSPE server m2, and after acquiring the dependent component of the queried service, directly performs the tracking conflict detection internally, and includes non-conflicting dependent component information.
  • the detection result is returned to the OSPE server m2, and the OSPE server m2 issues a corresponding control command to the tracking agent m3 according to the non-conflicting component information.
  • the command execution feedback of the tracking agent m3 it can be directly used by the OSPE server m2 Feedback to the TCM module ml 2 in SMAC ml.
  • the conflict detection function is located in the SMAC, which focuses on the query function of the tracking dependent component and the conflict detection function in the SMAC for processing, which is beneficial to reduce the processing flow.
  • the signaling process of the service tracking method in the second embodiment of the application of the foregoing OSPE system is as shown in FIG. 15 and includes:
  • the OSPE server receives the shutdown service tracking request of the OSPE requester, and specifies the service that needs to be closed for tracking in the request;
  • the OSPE server queries the SMAC for the dependencies of the service according to the service specified in the request.
  • the SMAC queries its dependencies according to the specified service, and obtains related dependencies required to track the services associated with the service and track the service;
  • the TMAC module of the SMAC queries the tracking status table according to the component list and related control requests, and divides the components into two groups: the tracking function is a list of non-conflicting components used by one tracking, and the tracking function is a list of conflicting components used by multiple tracking;
  • the d5' and the TCM module perform status update processing on the components in the component list of the tracking function that are used by the multiple tracking, and record the request to close the service tracking event;
  • the SMAC returns a conflict detection result to the OSPE server, where the tracking function is used by a tracking non-conflicting component list;
  • the OSPE server issues a shutdown tracking function command to the tracking agent of each component in the component list of the tracking function according to the list of non-conflicting components;
  • the tracking agent executes the tracking command to turn off the tracking function of the component
  • the tracking agent returns the tracking command execution result of the component to the OSPE server; d9. If the result of the successful execution of the tracking command is returned, the OSPE server feeds back the result to the TCM module of the SMAC, and the TCM module updates the tracking status table to the component. The execution of the command.
  • steps d5' and steps d5 ⁇ d9 are respectively the execution flow of the conflicting component component and the non-conflicting component component, and thus can be performed in parallel.
  • Embodiment 9 is an OSPE server, as shown in FIG. 16, comprising: a tracking control module nil, a TCM module nl2;
  • the tracking control module nil performs the operations performed by the usual OSPE server: receiving a service tracking control request, where the service tracking control request includes the requested service and the function control request related to the service, and queries and acquires the dependent component information of the specified service; Sending the queried component information and the related function control request to the newly added TCM module nl2 of the present invention; delivering the corresponding service tracking control command according to the conflict detection result of each component fed back by the TCM module nl2; and the service tracking control command The execution result is fed back to the TCM module nl2;
  • the TCM module nl2 is responsible for performing the conflict detection operation: detecting whether the control request of the tracking function conflicts with the current tracking state of each dependent component, and feeding back the detection result including the non-conflicting dependent component information to the tracking control module nil; performing the current tracking state of the component Update, for the conflicting component, it can be updated directly according to the relevant function control requirements.
  • the current tracking state of the corresponding component can be updated according to the execution result of the feedback service tracking control command.
  • the OSPE system architecture of the OSPE server is as shown in FIG. 17, and the OSPE server n1 obtains the service dependent component list by querying the SMAC n2, and directly performs the tracking conflict detection by the TCM module nl2, and sends the corresponding control command according to the detection result. Give tracking agent n3.
  • the command execution feedback for the trace agent n3 can be directly processed by the TCM module nl2 of the OSPE server.
  • the conflict detection function is located on the OSPE server, and the tracking command, the conflict detection function, and the feedback to the tracking agent are sent to the OSPE server for processing, which is beneficial to reduce the processing flow.
  • the signaling process of the service tracking method in the second embodiment of the application of the foregoing OSPE system is as shown in FIG. 18, and includes:
  • the OSPE server receives the closing service tracking request of the OSPE requester, and the request specifies the service that needs to be closed for tracking and the function control requirement related to the service, "turn off the tracking function, e2, the OSPE server according to the service specified in the request, Query the SMAC for the dependency of the service;
  • the SMAC queries the dependencies according to the specified service, acquires related dependencies required to track the services associated with the service, and returns the component list to the OSPE server.
  • the TCM module of the OSPE server according to the component list and related control requests, query Tracking the status table, the components are divided into two groups: the tracking function is a list of non-conflicting components used by one tracking, and the tracking function is a list of conflicting components used by multiple tracking;
  • the e5' and the TCM module perform status update processing on the components in the component list of the tracking function that are used by the multiple tracking, and record the request to close the service tracking event;
  • the OSPE server sends a command to turn off the tracking function to the tracking agent of each component in the component list of the tracking function according to the non-conflicting component list generated by the TCM module;
  • the tracking agent executes the tracking command to turn off the tracking function of the component
  • the tracking agent returns the tracking command execution result of the component to the OSPE server; e8. If the result of the successful execution of the tracking command is returned, the OSPE server feeds back the result to the TCM module, and the TCM module updates the tracking status table to the tracking command. Implementation.
  • steps e5' and e5 ⁇ e8 are respectively the execution flow of the conflicting component and the non-conflicting component, and therefore can be performed in parallel.
  • the tracking conflict detection module uses the centralized mode and is set in the centralized control end of the OSPE system.
  • the tracking conflict detection module can also be distributed in the tracking agent of the component, and the conflict detection is performed before the tracking agent executes the control command. Example 3 ⁇ 4 down.
  • Embodiment 10 a tracking agent, as shown in Figure 19, comprising a tracking processing module kll, TCM module kl2;
  • the tracking processing module k11 performs the operations normally performed by the tracking agent: receiving the service tracking control command; and further transmitting the tracking function control request to the newly added TCM module kl2 of the present invention; and performing the tracking command according to the detection result fed back by the TCM module kl2 deal with;
  • the TCM module kl2 is responsible for performing the conflict detection operation: detecting whether the control request of the tracking function conflicts with the current tracking state of the component, dividing the detection result into conflict and non-collision, and feeding back the detection result including the non-conflicting part to the tracking control module k11, For the detection result of the conflict, the corresponding tracking status update is directly performed.
  • the OSPE server k2 obtains a list of service dependent components by querying SMAC k3, and directly issues control according to the dependent component list. Command to the tracking agent kl. Tracking agent After the collision detection of the TCM module kl2 of kl, the control command is differentiated.
  • the conflict detection function is located in the tracking agent, which stores and processes the component status in a distributed manner, minimizes the impact on the existing process, and minimizes the process steps, thus effectively improving the processing efficiency.
  • the distribution mode only needs to maintain the tracking status table of this component.
  • the signaling process of the foregoing service method of the OSPE system is as shown in FIG. 21, and includes:
  • the OSPE server receives the OSPE requester to open the service tracking request
  • the OSPE server queries the SMAC for the dependency of the service according to the service specified in the request.
  • SMAC queries its dependencies according to the specified service, obtains the related services required to track the service and tracks the related components, and returns the component list to the OSPE server;
  • the OSPE server sends an open service tracking command to the tracking agent of each component.
  • the TCM module of the tracking agent performs conflict detection, and queries the tracking state table according to the open service tracking command. If the tracking function of the component is enabled, the tracking is performed. The function opens a conflict; if the tracking function of the component is not turned on, it indicates that the tracking function is open non-conflicting.
  • the TCM module performs status update processing on the component when the conflict is detected, and records the request to open the service tracking event;
  • the TCM module performs the open service tracking command to detect the non-conflict, and opens the tracking function of the component.
  • the TCM module updates the tracking status table of the component according to the result.
  • the business dependency storage content in SMAC can be expressed as: Business A Component 1, Component 3, Component 4
  • OSPE requester requests to open the tracking of service A
  • the OSPE server requests the SMAC to depend on the service A;
  • SMAC queries its dependencies according to the business name "Business A”, obtains the component list "Component 1, Component 3, Component 4", and SMAC returns the component list "Component 1, Component 3, Component 4" to the OSPE server;
  • the OSPE server requests collision detection from the TCM, and the request message carries a list of dependent components of "service A”, “component 1, component 3, component 4" and related function control requirements "open tracking function”;
  • TCM queries the tracking status table according to the component list. Since "Component 1, Component 3, Component 4" does not exist in the current tracking status table, the component list that does not have the tracking function is "Component 1, Component 3, Component 4" The list of components that have the trace function turned on is empty;
  • TCM returns the component list "Component 1, Component 3, Component 4" without the tracking function to the OSPE server;
  • OSPE server sends the tracking function command to the tracking agent of "component 1", “component 3", “component 4" respectively;
  • the OSPE server feeds back the result to the TCM, and the TCM updates the tracking status table to the execution of the tracking command.
  • the status table is updated as follows:
  • step g 10 Tracking the status table data structure using “components” and “reference times, the way, step g 10, by If "Component 1", “Component 3”, and “Component 4" do not exist in the component column of the trace status table, add the records of "Component 1", “Component 3", “Component 4,” in the trace status table. Since their default number of references is zero, the corresponding number of references is incremented by one and set to 1.
  • the contents of the trace status table at this time include:
  • OSPE requester requests to open the tracking of service B
  • the OSPE server requests the SMAC to depend on the service B;
  • the OSPE server requests conflict detection from the TCM, and the request message carries a list of dependent components of "Service B", “Component 2, Component 3, Component 5" and related function control requirements "Open Tracking Function”;
  • TCM queries the tracking status table according to the component list. Since "component 3" has appeared in the tracking status table, indicating that it has been opened, the component list of the tracking function is not “component 2, component 5", and the tracking function has been turned on. The component list is "Component 3";
  • TCM returns the component list "Component 2, Component 5" without the tracking function to the OSPE server; according to the component list "Component 3" with the tracking function turned on, its status table is updated;
  • the OSPE server sends an open tracking function command to the tracking agents of "component 2" and “component 5" respectively;
  • the OSPE server feeds back the result to the TCM, and the TCM updates the execution status of the tracking command by the component in the tracking status table.
  • the specific tracking status table is updated as follows:
  • step h6 since "component 3" already exists in the component column of the tracking status table, the number of "components 3,” is incremented by one. , the number of times becomes 2; in step hlO, since "Component 2" and “Component 5" do not exist in the component column of the trace status table, the record of "Component 2", "Component 5,” is added to the trace status table.
  • the number of references is 1.
  • the content of the tracking status table at this time includes:
  • the OSPE requester requests to close the tracking of service B;
  • the OSPE server requests the SMAC to depend on the service B;
  • the OSPE server requests collision detection from the TCM, and the request message carries a list of dependent components of "Service B", “Component 2, Component 3, Component 5" and related function control requirements "Close Tracking Function”;
  • the TCM queries the tracking status table according to the component list. Since the number of references of "component 3" is 2, the conflict is closed, and the tracking function is opened multiple times for the component list; the number of references of "component 2, component 5" is 1, then no Close conflict, belonging to the tracking function is only opened once the component list;
  • the TCM returns the tracking function to the OSPE server by a component list "Component 2, Component 5" used by the tracking function; the status table is updated according to the component list "Component 3" used by the tracking function by the tracking function;
  • the OSPE server sends a shutdown tracking function to the tracking agent of "Component 2" and "Component 5". Order
  • the tracking agent of "component 2" and “component 5" returns the tracking command execution result of the component to the OSPE server;
  • the specific tracking status table is updated as follows:

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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Debugging And Monitoring (AREA)
  • Exchange Systems With Centralized Control (AREA)

Abstract

L'invention concerne un procédé de commande de traçage de service, qui traite la détection de collision avant de délivrer ou d'effectuer l'instruction pour tracer et commander le composant, et un traitement différent est mis en oeuvre sur les composants ayant diverses conditions de traçage. Le service de traçage associé, tel que le service de traçage de service correspondant et la base de données de service, le serveur de commande de traçage, l'agent de traçage, etc., sont fournis. Le procédé peut traiter une opération pertinente sur les composants dans diverses conditions de traçage, et résoudre le problème de collision lors de l'ouverture et de la fermeture de la fonction de traçage de composant.
PCT/CN2007/070341 2006-07-31 2007-07-23 Procédé de commande de traçage de service et système de traçage de service et le dispositif de traçage associé WO2008017263A1 (fr)

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EP07764268A EP2048821B1 (fr) 2006-07-31 2007-07-23 Procédé de commande de traçage de service et système de traçage de service et le dispositif de traçage associé
ES07764268T ES2383153T3 (es) 2006-07-31 2007-07-23 Método de control para el seguimiento de servicios, sistema de seguimiento de servicios y equipos de seguimiento aplicable
AT07764268T ATE549817T1 (de) 2006-07-31 2007-07-23 Dienst-tracing-steuerverfahren und dienst-tracing-system und diesbezügliche tracing-einrichtung
US12/342,880 US20090104897A1 (en) 2006-07-31 2008-12-23 Service tracing control method, service tracing system and relevant tracing apparatus

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CNB2006101040389A CN100512150C (zh) 2006-07-31 2006-07-31 业务跟踪控制方法及业务跟踪系统与相关跟踪装置
CN200610104038.9 2006-07-31

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CN113918246A (zh) * 2021-10-27 2022-01-11 Oppo广东移动通信有限公司 功能控制方法、功能控制装置、存储介质与电子设备

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CN101119228A (zh) 2008-02-06
ES2383153T3 (es) 2012-06-18
ATE549817T1 (de) 2012-03-15
US20090104897A1 (en) 2009-04-23
EP2048821A4 (fr) 2009-09-02
EP2048821A1 (fr) 2009-04-15
CN100512150C (zh) 2009-07-08

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